ES2349613B1 - PROCESS TO OBTAIN HYDROGEN AND AMMONIA FROM AMMONIA, PARASU DIRECT APPLICATION AS FUEL OF HYDROGEN BATTERIES. - Google Patents

Abstract

Process to obtain hydrogen and ammonia a from ammonia for direct application as fuel for hydrogen batteries

What is the use of ammonia in form of gas to obtain electrical energy, by means of the battery of hydrogen, for which, we will introduce the ammonia in the form of gas in a tank (1) that we dilute in water; thus it becomes ion ammonium (NH4), which we pass through a filtering filter of iron (Fe), with electric potential (2). In this process the ion ammonia yields a proton and releases ammonia in gas and hydrogen from the solution also in gas.

We apply these gases to a stack of hydrogen fuel (3), and across the membrane, in Combined with oxygen, it produces electrical energy, which the we will use to recharge the batteries (4) that supply the electric power needed to move the electric motor (5).

The water (6) that has passed through the filter iron, free of the ammonium ion, we circulate it again to initial deposit (1) where ammonia is in the form of gas, to start the process again.

Description

Process to obtain hydrogen and ammonia a from ammonia, for direct application as fuel for hydrogen batteries

Background of the invention

One of the serious problems facing the global development is the dependence on fuels Fossils as a source of energy. The increase in demand for hydrocarbons, by emerging countries, such as China, the India etc., with continuous economic growth, predicts a greater Energy demand in the very near future.

The hydrocarbon reserves, formed during million years, it is evaluated and consequently we start from a energy whose availability is limited in time.

One of the largest fossil energy consumptions, they are the explosion engine vehicles, which in addition to producing a high environmental pollution, represent an economic burden for countries that are not oil producers, which limits their economic and social development Therefore, it is trying develop the electric motor vehicle, based on batteries high energy storage capacity or fuel cells They consume hydrogen as fuel.

The present invention aims to produce hydrogen and ammonia for direct application as fuel for the hydrogen batteries, so that said hydrogen batteries they can recharge the batteries that the electric power is supplied to the electric motor.

Object of the invention

The present invention seeks the production of hydrogen and ammonia continuously, from ammonia, to use it as fuel for hydrogen batteries, which when generating electricity recharge the batteries that supply the electric power to the electric motor. The process consists of introducing ammonia (NH3), in the form of gas, into a tank. Said ammonia (NH3) in the form of a gas is diluted in water (H2O) so that the ammonia (NH3) once diluted is transformed into ammonium ion (NH4). Ammonia diluted in water, we will pass through an iron filtering filter (Fe), with an electrical potential of less than 12 volts. Iron, in a basic medium and with the electric potential applied, produces that the ammonium ion yields a proton and the ammonia is released in the form of gas, also releasing hydrogen from the solution, also in the form of
gas.

The gas that emerges from dissolution, composed of ammonia and hydrogen, we apply it to a pile of hydrogen fuel Ammonia in the form of gas, behaves in the same way as the hydrogen in the hydrogen stack, of so that through the membrane in combination with oxygen, It produces electrical energy.

The electrical energy produced by the stack of hydrogen, we will use it to recharge the batteries that they supply the necessary electrical power for the motor electric.

Ammonium ion free water, after having passed through the iron filter, we will recirculate it to return to dissolve ammonia in the form of gas found in the tank to start the process again. The ammonia in the form of gas is the fuel that we use in the process to obtain energy electric, using the hydrogen stack.

Description of the invention

The invention of the "Process for obtaining hydrogen and ammonia from ammonia for application direct as hydrogen fuel cell, "look for the hydrogen and ammonia production in continuous, from ammonia, which will be used as fuel for batteries hydrogen. The electricity generated by hydrogen batteries recharge the batteries that supplies the electric power to the motor electric.

The process consists of introducing in a tank, ammonia (NH3) in the form of gas diluted in water (H2O), so that the ammonia (NH3) once diluted is transformation into ammonium ion (NH4).

Ammonia diluted in water, we will pass by an iron filtering filter (Fe), with a potential electric.

By passing the ammonia diluted in water by the iron filter causes the ammonium ion to yield a proton and release the ammonia in the form of gas, and hydrogen that was in dissolution, also in the form of gas.

The gas that emerges from dissolution, composed of ammonia and hydrogen, we apply it to a pile of hydrogen fuel and through the cell membrane of fuel, in combination with oxygen, produces energy electric

That electrical energy that has been produced by the hydrogen battery, we will use it to recharge the batteries that they supply the necessary electrical power for the motor electric.

Ammonium ion free water, after having passed through the iron filter, we will recirculate it to return to dissolve ammonia in the form of gas found in the tank to start the process again.

So the ammonia in the form of gas is the fuel that we use in the process to obtain energy electric, using the hydrogen stack.

Brief statement of the figure

Figure 1 graphically depicts the set of elements that make up this new system of "Process to obtain hydrogen and ammonia from ammonia for its direct application as fuel of hydrogen batteries "and where (1) represents the deposit where we will have introduced the ammonia (NH3), in the form of gas that we dilute in water. He once diluted ammonia (NH3) is transformed into ammonium ion (NH_ {4}), which we pass through a filtering filter of iron (Fe), with an electric potential (2). The iron, in a medium basic and with the electric potential applied, it produces that the ion ammonium yields a proton and the ammonia is released as a gas, and also removing hydrogen from the solution, also in gas form.

The gas that emerges from dissolution, composed of ammonia and hydrogen, we apply it to a pile of hydrogen fuel (3). Ammonia in the form of gas, is behaves in the same way as the hydrogen in the hydrogen stack, so that through the membrane in combination with oxygen, It produces electrical energy.

The electrical energy produced by the stack of hydrogen, we will use it to recharge the batteries (4) that they supply the necessary electrical power for the electric motor (5).

The water (6) that has passed through the filter iron, free of the ammonium ion, we circulate it again to initial deposit (1) where ammonia is in the form of gas, to start the process again.

Ammonia in the form of gas is the fuel that we use in the process to obtain electrical energy, through the hydrogen stack.

Description of how to carry out the invention

A brief description follows. of how to carry out the invention for the "Process for obtaining hydrogen and ammonia from ammonia for application direct as hydrogen fuel cell ", where (1) represents the deposit where we will have introduced ammonia (NH3) in the form of gas, in order to achieve its dissolution in water, It also exists in the warehouse.

Ammonia, once diluted, becomes ammonium ion (NH4).

This we pass through a filtering filter of iron with electrical potential (2), which produces the ammonium ion yield a proton, and ammonia is released in the form of gas and also releases the hydrogen in the solution in the form Of gas.

Water, free of ammonium ion when passing through iron filter (2), we circulate it (6) towards the tank initial (1), to re-dissolve the ammonia found in said deposit and thus start the process again.

The gas released by passing the ammonia diluted by the iron filings filter with potential electric, and as we said this, formed by ammonia (NH3) and hydrogen (H2), we apply it to a stack of hydrogen fuel (3).

In that hydrogen fuel cell, the ammonia in the form of gas, behaves just like hydrogen, of so that through the membrane, combined with oxygen, It produces electrical energy.

And that electrical energy produced is what We use to recharge the batteries (4) that supply the electric power needed to move the electric motor (5).

Ammonia in the form of gas, is the fuel that we use in the process to obtain electrical energy, by hydrogen stack.

Claims (4)

1. Process to obtain hydrogen and ammonia a from ammonia for direct application as fuel for hydrogen batteries, consisting of introducing ammonia, previously diluted in water, in iron filings filter, with an electrical potential of less than 12 volts, so that it detaches in the form of gas, NH 3 (ammonia) and H 2 (hydrogen). 2. Process to obtain hydrogen and ammonia a from ammonia for direct application as fuel for hydrogen batteries, according to claim one, consisting of driving NH3 (ammonia) and H2 (hydrogen) detached from the iron filter, to a stack of hydrogen fuel, so that in its reaction with oxygen produce electric power 3. Process to obtain hydrogen and ammonia a from ammonia for direct application as fuel for hydrogen batteries according to claim one and second, consisting of using the energy generated by the stack of hydrogen fuel, to recharge the batteries, which they supply the necessary electrical power for an engine electric. 4. Process to obtain hydrogen and ammonia a from ammonia for direct application as fuel for hydrogen batteries, according to claim one, second and third, consisting of using ammonia (NH3) and the hydrogen (H2) in a hydrogen fuel cell to generate electricity.